bibtype J - Journal Article
ARLID 0574270
utime 20250310145927.2
mtime 20230814235959.9
SCOPUS 85166965974
WOS 001043644300001
DOI 10.1007/s10811-023-03050-8
title (primary) (eng) Optimization of thin-layer photobioreactors for the production of microalgae by integrating fluid-dynamic and photosynthesis rate aspects
specification
page_count 13 s.
media_type E
serial
ARLID cav_un_epca*0021265
ISSN 0921-8971
title Journal of Applied Phycology
volume_id 35
volume 5 (2023)
page_num 2111-2123
publisher
name Springer
keyword Thin-Layer Photobioreactors
keyword Photosynthesis
keyword CFD
keyword Dissolved oxygen
author (primary)
ARLID cav_un_auth*0453110
name1 Inostroza
name2 C.
country ES
author
ARLID cav_un_auth*0404313
name1 Papáček
name2 Štěpán
institution UTIA-B
full_dept (cz) Teorie řízení
full_dept Department of Control Theory
department (cz)
department TR
country CZ
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
author
ARLID cav_un_auth*0417302
name1 Fernández-Sevilla
name2 J.M.
country ES
author
ARLID cav_un_auth*0452371
name1 Acién
name2 F. G.
country ES
source
source_type článek v odborném periodiku
source_size 2,28 MB
url https://library.utia.cas.cz/separaty/2024/TR/papacek-0574270.pdf
cas_special
abstract (eng) The optimal confguration of Thin-Layer Photobioreactors (TLP) for the production of microalgae is analyzed. For that, a TLP of 40 m long, 1.5 m wide, and a slope of 1% was used, with both Computational Fluid Dynamics (CFD) and experimental measurements being used as data sources. First, the infuence of culture inlet fows on the thickness of the fuid sheet and liquid velocity was studied, and a laminar fow was observed. Next, the light gradients at which the cells are exposed inside the cultures were calculated by considering both the light attenuation and movement of the cells along the reactor. A low frequency of light exposure was found. Combining the light regime to which the cells are exposed and diferent photosynthesis models the expected oxygen production rate was calculated. Although dynamic models are more precise, the use of static models is also suitable because of the low frequency of light exposition. The overall model of the reactor integrating fuid-dynamic and photosynthesis rates allows the optimization of the operation conditions on the photobioreactor. Results show that the optimal biomass concentration is 4 g L−1, at which the frequency of L/D cycles, oxygen production, and dissolved oxygen saturation is maintained at adequate values. Whatever the operating conditions the desorption of oxygen in the bubble column has been identifed as essential for optimal operation. In conclusion, major phenomena taking place in this type of photobioreactors are determined by the thickness of the culture depth which is a function of the culture fow rate provided to the channel, otherwise, the liquid fow determines the energy consumption on the reactor. Thus, the optimization of the overall confguration of this type of photobioreactor still is a challenge for its further industrial development.\n
result_subspec WOS
RIV BC
FORD0 20000
FORD1 20200
FORD2 20205
reportyear 2024
num_of_auth 4
mrcbC52 2 R hod 4 4rh 4 20250310143621.9 4 20250310145927.2
inst_support RVO:67985556
permalink https://hdl.handle.net/11104/0345839
confidential S
mrcbC91 C
mrcbT16-e BIOTECHNOLOGYAPPLIEDMICROBIOLOGY|MARINEFRESHWATERBIOLOGY
mrcbT16-j 0.488
mrcbT16-s 0.605
mrcbT16-D Q3
mrcbT16-E Q3
arlyear 2023
mrcbTft \nSoubory v repozitáři: papacek-574270.pdf
mrcbU14 85166965974 SCOPUS
mrcbU24 PUBMED
mrcbU34 001043644300001 WOS
mrcbU56 článek v odborném periodiku 2,28 MB
mrcbU63 cav_un_epca*0021265 Journal of Applied Phycology 0921-8971 1573-5176 Roč. 35 č. 5 2023 2111 2123 Springer